JP4372976B2 - Audio recording / playback system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention has a remote control function.Audio recording and playback system,In particular, a remote operation device and a voice recording / reproducing device capable of easily recognizing the operation state of each operation mode during remote control operation and being easy to use and capable of remotely operating the voice recording / reproducing device so that there is no erroneous operation.Audio recording and playback system comprisingAbout.
[0002]
[Prior art]
In recent years, a portable audio recording / reproducing apparatus (hereinafter referred to as “analog” which reproduces audio data stored in a flash memory as a rewritable storage medium after converting the audio signal into digital data) IC recorder) has been put into practical use. Similarly, an electronic still camera that records not only images but also sounds in the flash memory has been put into practical use.
[0003]
In any case, audio data converted into a digital signal and index information (audio data address, recording date and time) related to the audio data are stored in the audio data area and index information area provided in the flash memory. It is like that.
[0004]
In addition, devices with advanced functions such as the above-described electronic still camera and video camera often have a remote controller that is separate from this unit in order to improve operability such as mode switching.
[0005]
For example, in the proposal described in Japanese Utility Model Publication No. Hei 6-70316, it is described that the machine side (VTR, voice recorder, etc.) is remotely operated by a wireless remote controller using light such as infrared rays. In addition, since the remote control main body has a built-in microphone, it is possible to transmit an audio signal modulated in addition to a normal control signal to the apparatus. At this time, if this unit is in the recording mode, the control signal and the audio signal are distinguished from each other in the received signal and demodulated, so that the audio signal can be recorded again.
[0006]
[Problems to be solved by the invention]
However, as in the invention described in Japanese Utility Model Publication No. Hei 6-70316 described above, if the transmission medium by the transmission means is limited to only light such as infrared rays, the light emission signal of the wireless remote controller must be close at a short distance. I must. Moreover, there are considerable restrictions on use, such as the absence of obstacles. In this way, despite the fact that it is not easy to use, there is no display section for notifying the operator of the operating status of the wireless remote control, so the wireless remote control and the recorder having the recording function As a result, there is a problem that the user cannot easily recognize the operation states of various operation modes when operating the remote controller. Furthermore, in the above-described conventional invention, the wireless remote controller is provided with only the transmission unit, while the unit having the recording function is provided with only the reception unit. There is a disadvantage that mutual information cannot be exchanged and mutual control based on the information cannot be performed.
[0007]
  Therefore, the present invention has been made in view of the above problems,While the operation is stopped, both the apparatus main body and the remote control device (remote control) are controlled so as to be in a standby state with a low current consumption, and the battery (power) is controlled not to be wasted. In addition, whether or not the two-way communication between the apparatus main body and the remote control device (remote control) is being performed is displayed on the display unit, and if the communication state is unstable, the operation being performed is interrupted to Since a warning display is output on the display unit, a remote control device capable of remotely operating the voice recording / playback device and a voice recording / playback system including the voice recording / playback device are provided so as to prevent the malfunction from continuing.Objective.
[0008]
[Means for Solving the Problems]
  Of the present inventionFirstAn audio recording / reproducing system includes an audio recording / reproducing apparatus capable of bidirectional wireless communication and a remote control device for operating the audio recording / reproducing apparatus.
  The remote control device is for controlling the audio recording / reproducing device.pluralAn operation switch; and a control unit that generates a control signal for controlling the operation of the audio recording / reproducing apparatus in response to an operation of the operation switch;A timer that starts timing by operating the operation switch and a voice are input and converted into a first voice signal.An input unit, the control signal, and theFirstA first transmitting means for transmitting an audio signal to the audio recording / reproducing apparatus;Receiving a second audio signalFirst receiving means; andThe second audio signal received by the first receiving meansAnd a first power control unit that controls power supplied to each unit of the remote control device,
  The voice recording / reproducing device is connected to the remote control device.The firstSecond receiving means for receiving an audio signal and a control signal; andThe first received by the second receiving meansEncoding means for encoding an audio signal according to a predetermined format and converting it into audio data, storage means for storing the audio data, and audio data stored in the storage meansread outReading means; andRead by reading meansDecoding means for decoding audio data and converting it into an audio signal; and the decoded audio signalAs the second audio signalA second transmission means for transmitting to the remote control device; and a second power control unit for controlling power supplied to each unit of the audio recording / reproducing device,
In the remote control device,
  The first power control unitIf the timer counts the predetermined time, the time is over.Signal to notifyBy the first transmission meansSend to the audio recording / playback deviceAnd control to enter a standby state to reduce the power consumption of the remote control device,
In the audio recording / reproducing apparatus,
  The second power control unitBy the second receiving meansA signal notifying that the remote control device is in a standby state.If received, the relevantControl the audio recording / playback device to enter a standby state that reduces power consumption.
  It is characterized by that.
[0010]
The second audio recording / reproducing system of the present invention is the first audio recording / reproducing system,In the remote control device, the control unit warns when the radio wave intensity of transmission / reception between the remote control device and the audio recording / playback device is below a predetermined level.As shownAnd the audio recording / reproducing apparatus further comprises stop means for stopping the recording operation when radio wave intensity of transmission / reception between the remote control device and the audio recording / reproducing apparatus is lower than a predetermined level. .
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the invention will be described with reference to the drawings.
First embodiment:
(Constitution)
FIG. 1 is a block diagram showing a schematic configuration of an embodiment of a remote control device according to the present invention.
[0015]
As shown in FIG. 1, the remote control device according to the present embodiment (hereinafter sometimes referred to as a remote controller) is provided for remote control of a voice recording / reproducing device having a voice recording function, for example. A microphone (shown as MIC in the figure, hereinafter referred to as MIC) 12 for converting sound into an electrical signal is provided, and sound output from the MIC 12 is input to the sound input unit 13.
[0016]
The voice input unit 13 includes a microphone amplifier (not shown), for example, and is configured such that the gain can be freely controlled by the control unit 17. The analog audio signal amplified by the microphone amplifier is input to the transmission / reception unit 14 having a transmission function, modulated into a predetermined format, and then output from the antenna 15 as a radio wave having a predetermined frequency.
[0017]
In addition, the remote operation device is provided with an operation unit 18 for a user to perform an operation. The operation unit 18 includes, for example, a recording switch (REC), a reproduction switch (PLAY), a stop switch (STOP), Various switches such as a fast-forward switch (FF), a fast-return switch (REW), a menu switch (MENU), and a hold switch (HOLD) are arranged for each function.
[0018]
The display unit 16 is configured by a display member such as a liquid crystal display (LCD), for example, and an operation mode when a predetermined sequence is started by a switch operation of the operation unit 18 or a subsequent operation. Display status.
[0019]
For example, when the recording switch (REC) is pressed, the display unit 16 displays an elapsed recording time, a remaining recording time, a file number, and the like. When the menu switch (MENU) is pressed, display related to function selection such as microphone sensitivity (high / low), recording mode (standard / long), and alarm (on / off) is performed. Further, when the control unit 17 described later has a clock function, the current date and time are also displayed. Also, the battery check determination result of the remote controller (remote control device) and the device main body is displayed according to the operation status of each sequence.
[0020]
The control unit 17 is constituted by a CPU, for example, and comprehensively controls the audio input unit 13, the transmission / reception unit 14, the display unit 16, and the audio reproduction unit 19 in accordance with the switch input of the operation unit 18. To do. Specifically, the control unit 17 recognizes the switch input of the operation unit 18, and based on the recognition result, controls the variable gain of the microphone amplifier in the audio input unit 13, the audio signal in the transmission / reception unit 14, and the remote control Control signal transmission / reception control, display control of various operation modes or operation states (operation states) in the display unit 16, reproduction control in the audio reproduction unit 19, and the like are performed.
[0021]
In addition, the remote control device according to the present embodiment not only simply transmits a remote control operation signal, but also a transmission / reception unit capable of bidirectionally transmitting and receiving a remote control signal and audio signal to and from a voice recording / reproducing device operated by the remote control. 14 is provided. That is, the transmission / reception unit 14 functions as a pair with a transmission / reception unit 22 (see FIG. 2) of the audio recording / playback apparatus main body to be described later. The transmission / reception unit 14 includes separate circuits for one transmission function and one reception function, and can be turned on / off independently. Further, the transmission / reception unit 14 can perform bidirectional communication by simultaneously operating the transmission function and the reception function of transmission. For example, when the control unit 17 detects an audio signal output from the audio input unit 13, the control unit 17 turns on the transmission function in the transmission / reception unit 14 in order to transmit the audio signal to the audio recording / playback apparatus main body. Similarly, since the control unit 17 transmits a control signal every time a predetermined sequence is started, the transmission function in the transmission / reception unit 14 is turned on.
[0022]
On the other hand, the audio signal transmitted from the audio recording / reproducing apparatus main body is received by the reception function in the transmission / reception unit 14, demodulated, and then output to the audio reproduction unit 19. The audio reproduction unit 19 amplifies the demodulated audio signal to a predetermined level and outputs it to the headphones 11. As a result, the audio signal transmitted from the audio recording / reproducing device on the remote operation device side can be reproduced via the headphones 11.
[0023]
FIG. 2 is a block diagram showing an embodiment of an audio recording / reproducing apparatus according to the present invention capable of two-way wireless communication with the remote control device.
As shown in FIG. 2, the audio recording / reproducing apparatus of the present embodiment has an audio recording function, and is controlled remotely by the remote operation apparatus, and includes a codec 23 and a digital signal processing unit (in the figure, (Hereinafter referred to as DSP, hereinafter referred to as DSP) 26. The codec 23 includes a low-pass filter (not shown), an A / D converter, a D / A converter, and the like.
[0024]
When the audio signal is transmitted from the remote control device of FIG. 2, the transmitted audio signal is received by the reception function of the transmission / reception unit 22 of FIG. 1, demodulated, and input to the low pass filter of the codec 23. At this time, the control signal attached to the audio signal is discriminated at the time of demodulation and input to the system control unit 27. The system control unit 27 executes a predetermined sequence such as recording and reproduction according to the code contents of the control signal.
[0025]
The audio signal whose unnecessary frequency band is cut by the low-pass filter of the codec 23 is input to an A / D converter at the next stage in the codec 23, although not shown. The A / D converter performs sampling processing on the supplied analog audio signal at a predetermined frequency to convert it into a digital signal and outputs it to a digital signal processing unit (also referred to as DSP) 26.
[0026]
The digital signal processing unit 26 performs digital processing necessary for recording or reproduction on the recording signal or the reproduction signal at the time of recording or reproduction, and these processes are controlled by the system control unit 27. ing.
[0027]
For example, at the time of recording, the digital signal processing unit 26 is controlled by the system control unit 27 to perform compression conversion processing (encoding processing) so that the output signal of the A / D converter becomes data of a fixed format in units of frames. To obtain encoded data. The encoded data is temporarily stored as audio data in a buffer memory (not shown) in the system control unit 27. That is, the system control unit 27 recognizes the audio data by controlling the digital signal processing unit 26, and controls to write the audio data to the internal buffer memory.
[0028]
The system control unit 27 is constituted by a CPU, for example, and controls all circuit units in the audio recording / reproducing apparatus. In addition to the digital signal processing unit 26, the system control unit 27 is connected to a storage unit (for example, a memory) 28 as a storage unit. The storage unit 28 is composed of a non-volatile semiconductor memory, for example, a flash memory, and the audio data encoded by the digital signal processing unit 26 is recorded in the buffer (not shown) of the system control unit 27 during recording. Store via memory. At this time, the storage unit 28 also stores index information regarding the audio data together with the audio data.
[0029]
On the other hand, at the time of reproduction, the digital signal processing unit 26 performs decompression conversion processing (decoding processing) on a frame basis for audio data that the system control unit 27 sequentially reads from the storage unit 28 to obtain decoded data. The decoded digital signal is input to the D / A converter of the codec 23. The D / A converter performs analog conversion processing on the supplied digital audio signal to convert it into an analog audio signal. After that, the audio signal converted into the analog signal is output to the audio reproduction unit 24 after unnecessary frequency band is cut by a low-pass filter in the next stage in the codec 23 (not shown), and is amplified by the audio reproduction unit 24. Then, by outputting to the speaker 25, the sound is reproduced from the speaker 25 as sound. The audio signal is also supplied to the transmission / reception unit 22, modulated into a predetermined format by the transmission function of the transmission / reception unit 22, and then transmitted from the antenna 21 to the remote control device (remote control) shown in FIG. 1.
[0030]
(Function)
Next, the operation of the audio recording / reproducing apparatus and the remote control apparatus according to the present invention will be described in detail with reference to FIGS. 3 is a flowchart showing an example of the control operation in the system control unit of the audio recording / reproducing apparatus, FIG. 4 is a flowchart showing an example of the control operation in the control unit of the remote operation apparatus, and FIG. 5 is mainly recording execution of the audio recording / reproducing apparatus. 6 shows a flowchart showing an example of the control operation of the system control unit at the time, and FIG. 6 mainly shows a flowchart showing an example of the control operation of the control unit when checking the battery of the remote control device.
First, the main control operation of the audio recording / reproducing apparatus shown in FIG. 2 will be described with reference to FIG.
Now, when the power of the audio recording / reproducing apparatus shown in FIG. 2 is turned on, the system control unit 27 in the apparatus is activated to execute the processing routine shown in FIG. That is, the system control unit 27 performs a predetermined initial setting in the process of step S1, and then performs control to execute a timer start in the subsequent process of step S2. This timer is used for measuring the time required for the apparatus main body to enter the standby mode (low current consumption mode) from the normal operation mode after a predetermined time has elapsed.
[0031]
When the apparatus main body enters the operation mode, the system control unit 27 performs a process of determining whether or not a remote control signal has been received in the subsequent process in step S3 until the time of the timer exceeds a predetermined time. The remote control signal reception standby state is maintained. If it is determined in this determination processing that the remote control signal has been received during standby, the system control unit 27 proceeds to the subsequent steps S4 to 10 and S11 in order to detect the code contents of the received control signal. The determination process shown is performed.
[0032]
These determination processes include a recording switch (REC), a playback switch (PLAY), a fast forward switch (FF), a fast reverse switch (REW), a stop switch (STOP), a menu switch (MENU), and an erase switch (ERASE). In this order, reference is made to whether or not the received control signal matches a predetermined code of each switch.
[0033]
In this case, when it is determined that the code of the control signal detected in the determination process in step S4 is a recording switch, the system control unit 27 shifts the process to step S12, which is a subroutine for the recording process, and executes the subroutine. Execute. Similarly, if it is determined in step S5 that the code is a reproduction switch, the process proceeds to step S13, which is a subroutine for reproduction processing, and the code is a fast-forward switch in step S6. If it is determined that the code is a rewind switch in step S7, the process proceeds to step S14, which is a subroutine for fast-forward processing. When the process proceeds to S15 and it is determined in the determination process in step S8 that the code is a stop switch, the process proceeds to the process in step S16 indicating a subroutine for the stop process, and the code is determined in the determination process in step S9. If it is determined that the switch is a menu switch, the menu change processing subroutine The process proceeds to step S17, and if it is determined in the determination process in step S10 that the code is an erasure switch, the process proceeds to step S18 and the process is controlled to execute the erasure process. .
[0034]
Then, after executing the subroutine, the system control unit 27 restarts the timer described above in the process of step S19 and returns the process to step S3 of the main loop.
[0035]
The fast-forward process (step S14), fast-rewind process (step S15), stop process (step S16), menu change process (step S17), and erase process (step S18) are performed using well-known technical means. The detailed description is omitted because it is not directly related to the contents of the present invention.
[0036]
If the system control unit 27 determines that none of the above-described switch codes corresponds to the determination process in steps S4 to S10, the remote control is set in the normal operation mode by the process in step S11. The presence / absence of a time over code transmitted when entering the mode (low current consumption mode) is detected, and when this code is detected, the apparatus main body is set to the standby mode by the processing of the subsequent step S21. Control. Further, the system control unit 27 performs the same control as the process of step S21 when the apparatus main body detects a time-over while it is waiting in the determination process of step S20. As a result, the device main body enters the standby mode.
[0037]
In the audio recording / reproducing apparatus of the present embodiment, when the standby mode is entered, the apparatus main body is set to a low current consumption operation state under the control of the system control unit 27.
[0038]
Specifically, when executing the standby mode of step S21, the system control unit 27 shuts off the power of the transmission / reception unit 22, codec 23, audio reproduction unit 24, digital processing unit 26, and storage unit 28 of FIG. Alternatively, by outputting a non-selection signal to a chip enable terminal provided in an IC (not shown) constituting each block, a low current consumption state is achieved. However, the reception function of the transmission / reception unit 22 maintains the reception standby state so that the restart signal transmitted from the remote controller can be received. Also, the system control unit 27 controls the operation clock so that the operation clock is switched to the low-speed clock with the least current consumption to enter the low current consumption state. In some cases, the operation clock may be switched from the main clock (for example, 9.28 MHz) to the sub clock (for example, 32.768 kHz), and then the main clock may be completely stopped until a switch input is detected. .
[0039]
Next, the main control operation of the remote control device shown in FIG. 1 will be described with reference to FIG. 4A is a flowchart showing an example of a control operation in the control unit of the remote control device, and FIG. 4B is a flowchart showing a standby mode processing routine included in the processing routine shown in FIG. 4A. .
[0040]
Now, when the power of the remote control device shown in FIG. 1 is turned on, the control unit 17 in the device is activated to execute the processing routine shown in FIG. That is, the control unit 17 performs a predetermined initial setting in the process of step S90, and then controls to start a timer in the subsequent process of step S91. This timer is used to measure the time for the remote control device (remote controller) to enter the standby mode (low current consumption mode) from the normal operation mode after a predetermined time has elapsed.
[0041]
When the remote control device enters the operation mode, the control unit 17 determines whether or not a signal transmitted from the device main body shown in FIG. 2 has been received in the subsequent processing in step S92 until the time of the timer exceeds a predetermined time. The reception standby state is maintained by performing such determination processing. In this determination process, when it is determined that the signal transmitted from the apparatus main body has been received during standby, the control unit 17 proceeds to step S93, and the code content of the control signal received in the process is displayed. Control is performed to perform display update processing corresponding to the detected code contents. In the subsequent step S112, the timer is restarted, and the process returns to step S92 of the main loop.
[0042]
On the other hand, if it is determined in step S92 that the apparatus main body signal is not received, the control unit 17 performs the recording switch by the switch detection operation shown in steps S94 to 99 and step S100. (REC), playback switch (PLAY), fast forward switch (FF), fast reverse switch (REW), stop switch (STOP), menu switch (MENU), and erase switch (ERASE) Detect whether or not.
[0043]
  In this case, if it is determined in step S94 that the switch turned on is a recording switch, the control unit 17 proceeds to step S104, which is a subroutine for transmitting the recording switch code, and the subroutine. Execute. Similarly, if the switch turned on in the determination process in step S95 is a regeneration switch.JudgmentIf so, the process proceeds to step S105, which is a subroutine for transmitting the playback switch code. If it is determined in step S96 that the switch turned on is a fast-forward switch, the fast-forward switch code is changed. The process proceeds to step S106, which is a subroutine to be transmitted, and if it is determined that the switch turned on in the determination process in step S97 is a rewind switch, the process proceeds to step S107, which is a subroutine to transmit the code of the fast reverse switch. If it is determined that the switch turned on in the determination process in step S98 is a stop switch, the process proceeds to step S108, which is a subroutine for transmitting a stop switch code, and the determination process in step S99 is performed. The switch turned on with If it is determined that the switch is turned on, the process proceeds to step S109, which is a subroutine for transmitting a menu switch code. If it is determined that the switch turned on in the determination process in step S100 is an erase switch, Then, the process proceeds to step S110, which is a subroutine for transmitting the erase switch code, and is executed.
[0044]
Then, after executing the subroutine, the control unit 17 restarts the above-described timer in the subsequent step S111 and returns the process to step S92 of the main loop.
[0045]
If it is determined in the determination processing in steps S94 to 100 that all the switches are off, the control unit 18 determines whether the time counted by the timer has exceeded a predetermined time by the determination processing in step S101. If it is determined that it is over, the time over code is transmitted to the apparatus main body in the subsequent step S102, and then the process of step S103, which is a subroutine in the standby mode, is executed to Control to enter standby mode.
[0046]
In the remote control device according to the present embodiment, when the standby mode is entered, the device main body (remote control) is put into a low current consumption operation state under the control of the control unit 17 as in the case of the device main body.
[0047]
Specifically, the control unit 17 is provided in an IC (not shown) that cuts off the power of the audio input unit 13, the transmission / reception unit 14, the display unit 16, and the audio reproduction unit 19 of FIG. 1 or constitutes each block. By outputting a non-selection signal to the chip enable terminal, a low current consumption state is obtained.
[0048]
At this time, similarly to the apparatus main body (see FIG. 2), the control unit 17 controls the operation clock so that the operation clock is switched to the low-speed clock with the least current consumption to enter the low current consumption state. In some cases, the operating clock is switched from a main clock (eg, 9.28 MHz) to a sub clock (eg, 32.768 kHz), and then the main clock is completely switched until communication is resumed or a switch input is detected. You may make it stop.
[0049]
Next, the standby mode process in step S103 executed in the routine of FIG. 4A will be described in detail with reference to FIG. 4B.
When the standby mode process in step S103 of the routine shown in FIG. 4 (a) is executed, the control unit 17 activates a standby mode subroutine shown in FIG. 4 (b).
[0050]
This standby mode sequence can be applied to both the remote control device (remote control) and the device main body.
[0051]
When this subroutine is executed, the control unit 17 first controls to perform the setting process for the low current consumption operation as described above in the process of step S30.
[0052]
If the standby mode process is applied to the apparatus main body, for example, the low current consumption is maintained until the restart signal is received while detecting the presence or absence of the restart signal in the subsequent step S31. On the other hand, when applied to the remote control device, the low current consumption operation is maintained until the switch input occurs while detecting the presence or absence of the switch input in the process of step S32. In this way, control is performed by the corresponding control unit.
[0053]
In each case, when the system control unit 27 or the control unit 17 receives a restart signal or detects a switch input, the system control unit 27 or the control unit 17 sets the normal mode in the subsequent step S33 and returns to the main loop.
[0054]
Next, an example of the recording process control operation of the system control unit during recording of the audio recording / playback apparatus of FIG. 2 will be described in detail with reference to FIG.
Now, in the audio recording / playback apparatus of FIG. 2, when the recording process subroutine of step S12 shown in FIG. 3 is executed, the system control unit 27 activates the recording process routine shown in FIG. That is, when recording starts, the system control unit 27 shifts the process to step S40, and a battery check subroutine described later is executed in the process.
[0055]
Thereafter, when the battery check process is completed, the system control unit 27 transmits the determination result by the battery check to the remote operation device (remote controller) in the subsequent step S41, and also in the apparatus main body in the process of step S42. Based on the determination result, it is determined whether or not the recording sequence can be continued. In this case, when the B-NG flag or the R-NG flag is “1”, the recording sequence cannot be normally continued. Therefore, the system control unit 27 immediately executes the recording termination processing subroutine of step S56 to execute the main processing. Return to the loop. When all the flags are “0”, the system control unit 27 performs the microphone impression (high / low), the recording mode (standard / long), the file number, and the file number in the subsequent step S43. Various information such as a voice data storage area start address for storing voice data is controlled to be stored in the index information area of the storage unit 28.
[0056]
Thereafter, the system control unit 27 moves the process to step S44, detects whether or not an audio signal is included in the received signal of the apparatus main body in the process, and determines that the audio signal is not included. In this case, the process proceeds to step S57, and if it is determined that the process is included, the process proceeds to subsequent step S47. At this time, if an audio signal is included, the audio signal input to the codec 23 is quantized at a predetermined sampling frequency and converted into a digital signal.
[0057]
The system control unit 27 encodes the audio signal by the digital signal processing unit 26 in the process of step S47, but the encoding itself is performed in units of frames, and the audio data is a predetermined number of frames in the subsequent determination process of step S48. Continue until it becomes.
[0058]
Thereafter, when the audio data stored in a buffer memory (not shown) in the system control unit 27 reaches a predetermined number of frames (the number of frames set in the process of step S48), the system control unit 27 In the subsequent step S49, the audio data is controlled to be written and stored in order from the audio data storage area start address of the storage unit 28.
[0059]
Then, the system control unit 27 performs transmission control so that the recording information associated with the series of sequences is sequentially transmitted to the remote operation device (remote controller) in the subsequent process of step S50, and the same process as described above in the subsequent process of step S51. The battery check subroutine is executed. This battery check process is effective if it is controlled so as to be executed even during the execution of steps SS44 to SS50.
[0060]
  In addition, the system control unit 27 transmits the determination result of the battery check to the remote operation device (remote controller) in the subsequent process of step S52, and in the process of step S53.apparatusThe main body also determines whether or not to continue the recording sequence based on the determination result. In this case, when the B-NG flag or the R-NG flag is “1”, the recording sequence cannot be normally continued. Therefore, the system control unit 27 immediately executes the recording termination processing subroutine of step S56 to execute the main processing. Return to the loop. When all the flags are “0”, the system control unit 27 continues the recording sequence as it is.
[0061]
The series of processes in steps S44 to S53 is controlled to be repeated until the stop switch code is received in the determination process in step S54. If it is determined in step S54 that the stop switch code has been received, the system control unit 27 executes a recording termination processing subroutine in step S56 as described above, and returns to the main loop. .
[0062]
If it is determined in step S44 that the received signal does not contain an audio signal, the system control unit 27 executes a battery check subroutine similar to that described above in step S57. Further, the system control unit 27 transmits the determination result of the battery check to the remote operation device (remote controller) in the process of step S58, and whether or not the recording sequence can be continued based on the determination result in the process of step S59. To decide. In this case, when the B-NG flag or the R-NG flag is “1”, the recording sequence cannot be normally continued. Therefore, the system control unit 27 immediately executes the subroutine for the recording end process in step S56 as described above. To return to the main loop.
[0063]
When all the flags are "0", the system control unit 27 sets the recording standby mode in the subsequent step S45. This mode functions when an audio signal is not received for a predetermined time or longer during recording, and is a mode in which the power and the like can be significantly reduced by setting the storage unit 28 in a standby state. Also, it functions by setting this mode before the start of recording by mode selection of a remote control device (remote control) (not shown).
[0064]
Thereafter, the system control unit 27 transmits the recording standby state to the remote control device (remote control) in the subsequent step S46, and returns the process to step S44. That is, the main body of the apparatus continues the recording sequence while transmitting the recording standby state to the remote controller until an audio signal is received.
[0065]
Next, an example of the control operation of the control unit at the time of battery check on the remote operation device side will be described in detail with reference to FIG. This battery check processing routine is, of course, also performed on the audio recording / reproducing apparatus side. For example, when any one of steps S40, 51, and 57 shown in FIG. 5 is performed. Is to be executed.
[0066]
Now, in the remote control device shown in FIG. 1, when the battery check process is executed, the control unit 17 starts the battery check process routine shown in FIG. That is, the control part 17 transfers a process to step S70, and performs the subroutine of battery voltage determination first by this process.
[0067]
Then, according to the program incorporated in the control unit 17, the control unit 17 determines whether or not the battery voltage is a predetermined level voltage in the subsequent determination processing in steps S71 and 72, and the determination result is OK. If it is level, the B-OK flag is set to “1” in the process of step S75 (S75). On the other hand, when the determination result is the warning level, the B-warning flag is set to “1” in the process of step S74. If the determination result is not one of the determination results, the control unit 17 sets the B-NG flag to “1” in the process of step S73, and ends the battery check.
[0068]
If it is determined that the battery voltage determination result is OK level or warning level, the control unit 17 executes a sub-routine for radio wave intensity determination in the subsequent step S76. Then, the control unit 17 executes the determination process of step S77 according to the program incorporated in the control unit 17, that is, determines whether or not the reception signal level of the transmission / reception unit 14 is a predetermined level of voltage. . In this case, when it is determined that the determination result is equal to or higher than the predetermined level, the control unit 17 sets the R-OK flag to “1” in the process of step S79, and on the other hand, if the determination result does not reach the predetermined level. If it is determined, the R-NG flag is set to “1” in step S78.
[0069]
Further, the control unit 17 performs display control so that these determination results are displayed on the display unit 16 of the remote control device (remote control) in real time. Thereby, it is possible to accurately notify the operator. Note that the control may be performed so that the warning display between the remote control device (remote control) and the device main body is clearly distinguished.
[0070]
Now, a configuration example when the remote control device according to the present invention is actually configured and a display example at the time of recording will be described in detail with reference to FIGS.
[0071]
7A and 7B are a top view and a front view showing a schematic configuration of the remote control device. FIG. 8A shows a display example at the time of recording on the display unit of the remote control device, and FIG. The front view which shows schematic structure of an apparatus is shown.
As shown in FIG. 7, a microphone hole 60 and an earphone jack 66 are disposed on the upper surface of the remote control device (remote controller) 61. A microphone jack or the like may be provided depending on the product specifications.
[0072]
On the front of the remote control device 61, there are an LCD 65, a recording switch (REC) 69, a playback switch (PLAY) 67, a fast forward switch (FF) 68, a fast reverse switch (REW) 70, a stop switch (STOP) 63, a menu switch ( Each switch including a display unit such as a MENU 64 and an erase switch 62 is provided. In many cases, the operation switch is a feather touch switch which is generally referred to as a tactile push switch.
[0073]
First, when the recording switch (REC) 69 of the remote control device 61 is turned on by a user operation, the device main body starts a recording operation. At this time, in order to notify the operator that it is in the recording operation state, the display as shown in FIG.
[0074]
In FIG. 8A, a pattern display 80 represents a folder for storing audio data being recorded. The pattern display 71 represents a recording mode during recording. A pattern 72 represents that recording is in progress. The pattern display 73 represents the remaining recording time. The pattern display 74 represents the elapsed recording time. Therefore, by performing such a display, it is possible to easily check the operation state of each operation mode even during remote control operation.
[0075]
On the other hand, the audio recording / reproducing apparatus is configured, for example, as shown in FIG. 8B, and a power switch (POWER) 78, an LED 75, and a speaker 77 are disposed on the front surface of the apparatus main body 76. Since the LED 75 is lit when the power switch (POWER) 78 is on, the user can easily confirm whether or not the apparatus main body is in an operating state. In this state, an audio signal is transmitted as a radio wave 79 from the remote controller, and is received and recorded by the apparatus main body.
[0076]
During reproduction, an audio signal transmitted from the apparatus main body is received by the remote control device, and the reproduced sound is output to the earphone jack 66 as described above. Accordingly, the sound can be reproduced by the microphone 11 (see FIG. 1) inserted into the earphone jack 66.
[0077]
Note that the audio recording / reproducing apparatus is not limited to the form shown in FIG. 8B. For example, the audio recording / reproducing apparatus is configured using a personal computer having excellent processing speed, storage capacity, and software versatility. May be. Further, the apparatus main body may be configured to have multiple channels so as to be compatible with a plurality of remote control apparatuses (remote controllers).
[0078]
(effect)
  Therefore, according to this embodiment,, DynamicDuring the operation stop, both the device main body and the remote control device (remote control) are controlled so as to be in a standby state with a low current consumption, so that the battery (power) is not wasted. Further, since the determination result of the battery check of the apparatus main body is displayed on the display unit of the remote control device (remote control), the operation check is easy. In addition, whether or not the two-way communication between the apparatus main body and the remote control device (remote control) is being performed is displayed on the display unit, and if the communication state is unstable, the operation being performed is interrupted to Since a warning display is output to the display unit, it is possible to prevent malfunctions from continuing.
[0079]
[Additional notes]
(Additional Item 1) In a remote control device capable of performing two-way wireless communication with a voice recording / playback device capable of recording and playing back a voice,
An operation switch for controlling the audio recording and reproducing device;
A control unit for generating a control signal for controlling the operation of the audio recording / reproducing apparatus in response to an operation of the operation switch;
An input unit for inputting an audio signal;
First transmission means for transmitting the control signal and the audio signal to the audio recording / reproducing apparatus;
First receiving means for receiving an audio signal from the audio recording / reproducing apparatus and a status signal indicating an operating state of the audio recording / reproducing apparatus;
An audio reproducing unit for reproducing an audio signal from the audio recording / reproducing device;
Display control is performed by the control unit, the display unit displays the operation state of the remote control device, and displays the operation state of the voice recording and playback device based on the state signal,
A remote control device comprising:
[0080]
(Additional Item 2) First control means for controlling the remote control device and / or the audio recording / reproducing device so as to be in a standby state with a low current consumption after a predetermined time has elapsed since the operation stop of the audio recording / reproducing device. The remote control device according to Additional Item 1, further comprising:
[0081]
(Additional Item 3) The remote control device according to Additional Item 1, wherein the control unit controls display of the display unit so as to distinguish and display power states of the remote control device and the audio recording / reproducing device. Operating device.
[0082]
(Additional Item 4) The control unit performs display control of the display unit so as to display a warning when the radio wave intensity of transmission / reception between the remote control device and the audio recording / reproducing device is equal to or lower than a predetermined level. Item 2. The remote control device according to Item 1, wherein the remote control device is characterized.
[0083]
(Additional Item 5) In an audio recording / reproducing apparatus capable of bidirectional wireless communication with a remote control device,
Second receiving means for receiving an audio signal and a control signal from the remote control device;
Encoding means for encoding a voice signal from the remote control device according to a predetermined format and converting the voice signal into voice data;
Storage means for storing the audio data;
A voice data stored in the storage means; a reading means;
Decoding means for decoding the read audio data and converting it into an audio signal;
Second transmitting means for transmitting the decoded audio signal to the remote control device;
An audio recording / reproducing apparatus comprising:
[0084]
(Additional Item 6) A second control unit is provided for controlling the audio recording / reproducing apparatus so as to enter a standby state with a low current consumption after a predetermined time has elapsed since the operation of the audio recording / reproducing apparatus was stopped. The audio recording / reproducing apparatus according to appendix 5.
[0085]
(Supplementary Item 7) Third control means for controlling the remote control device and the audio recording / reproducing device to be in a low current consumption standby state when no audio signal is input for a predetermined time when the audio activation mode is set. The audio recording / reproducing apparatus according to Item 5, further comprising:
[0086]
(Additional Item 8) The apparatus according to Additional Item 5, further comprising stop means for stopping the recording operation when the radio wave intensity of transmission / reception between the remote control device and the audio recording / reproducing device is lower than a predetermined level. Audio recording / playback device.
[0087]
【The invention's effect】
As described above, according to the present invention, it is possible to easily check the operation state of each operation mode even when operating the remote controller, and to perform remote operation that can easily operate the audio recording / reproducing device so that it is easy to use and does not malfunction. An apparatus and an audio recording / reproducing apparatus can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a remote control device of the present invention and showing a schematic configuration of the device.
FIG. 2 is a block diagram showing a schematic configuration of the audio recording / reproducing apparatus according to an embodiment of the present invention.
3 is a flowchart showing an example of a control operation in a system control unit of the apparatus main body of FIG. FIG. 2 is an exploded perspective view showing an internal structure of the telephone set of FIG.
4 is a flowchart showing an example of a control operation in a control unit of the remote control device of FIG. 1;
5 is a flowchart showing an example of a control operation of a system control unit during recording execution of the apparatus main body of FIG.
6 is a flowchart showing a control operation example of a control unit at the time of battery check of the remote control device of FIG. 1;
FIG. 7 is a configuration diagram showing a configuration example of an actual remote control device.
FIG. 8 is an explanatory diagram showing a display example of the display unit and a configuration example of the apparatus main body during recording by the remote control device.
[Explanation of symbols]
11 ... headphones,
12 ... Microphone (MIC),
13 ... Voice input part,
14 ... Transmitter / receiver (remote control side)
15 ... antenna (remote control side),
16 ... display part,
17 ... Control unit (CPU),
18 ... operation unit,
19 ... Audio playback unit,
21: Antenna (on this machine side)
22: Transmitter / receiver unit (machine side),
23 ... codec,
24 ... Audio playback unit,
25 ... Speaker,
26: Digital signal processor (DSP),
27 ... System control unit (CPU),
28: Storage unit (memory).

Claims (2)

In an audio recording / reproducing system including an audio recording / reproducing apparatus capable of performing bidirectional wireless communication and a remote control device for operating the audio recording / reproducing apparatus,
The remote control device is:
A plurality of operation switches for controlling the audio recording and reproducing device;
A control unit for generating a control signal for controlling the operation of the audio recording / reproducing apparatus in response to an operation of the operation switch;
A timer that starts timing by operating the operation switch;
An input unit for inputting voice and converting it into a first voice signal ;
First transmission means for transmitting the control signal and the first audio signal to the audio recording / reproducing apparatus;
First receiving means for receiving a second audio signal from the audio recording / reproducing apparatus;
An audio reproduction unit for reproducing the second audio signal received by the first reception unit ;
A first power control unit that controls power supplied to each unit of the remote control device;
With
The audio recording / reproducing apparatus comprises:
Second receiving means for receiving the first audio signal and the control signal from the remote control device;
Encoding means for encoding the first audio signal received by the second receiving means according to a predetermined format and converting the encoded audio data into audio data;
Storage means for storing the audio data;
Reading means for reading the audio data stored in the storage means;
Decoding means for decoding audio data read by the reading means and converting it into an audio signal;
Second transmitting means for transmitting the decoded audio signal as the second audio signal to the remote control device;
A second power control unit for controlling power supplied to each unit of the audio recording / reproducing apparatus;
With
In the remote control device,
When the timer counts a predetermined time , the first power control unit transmits a signal notifying that the timer is over to the voice recording / reproducing device by the first transmission unit , and the power of the remote control device. Control to stand by to reduce consumption,
In the audio recording / reproducing apparatus,
It said second power control unit, when said by the second receiving means remote operation apparatus receives a signal notifying that it is now in idle mode, standby to reduce power consumption of the audio recording and reproducing apparatus An audio recording / reproducing system characterized by controlling to be in a state. In the remote control device,
The control unit controls to display a warning when the radio wave intensity of transmission / reception between the remote control device and the audio recording / reproducing device is lower than a predetermined level,
2. The voice recording / reproducing apparatus further comprises stop means for stopping a recording operation when radio wave intensity of transmission / reception between the remote control device and the voice recording / reproducing apparatus is below a predetermined level. The audio recording / reproducing system described in 1.

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